To start that script automatically when system starts run the following command as root (or sudo):

+

$ systemctl enable vboxservice

+

+

If you don't want to use systemd: (If you are unsure, use the method above):

* if you are using a [[desktop environment]], you just need enable a checkbox or add the {{ic|/usr/sbin/VBoxClient-all}} to the autostart section in your DE settings (the DE will typically set a flag to a ''.desktop'' file in {{ic|~/.config/autostart}} - [[Autostart#Desktop_Application_Autostart|see the Autostart section for more details]] -);

* if you are using a [[desktop environment]], you just need enable a checkbox or add the {{ic|/usr/sbin/VBoxClient-all}} to the autostart section in your DE settings (the DE will typically set a flag to a ''.desktop'' file in {{ic|~/.config/autostart}} - [[Autostart#Desktop_Application_Autostart|see the Autostart section for more details]] -);

* if you do not have any [[desktop environment]], add the following line to the top of {{ic|~/.xinitrc}} (copy the file from {{ic|/etc/skel/.xinitrc}} if it does not exist) above any {{ic|exec}} options:

* if you do not have any [[desktop environment]], add the following line to the top of {{ic|~/.xinitrc}} (copy the file from {{ic|/etc/skel/.xinitrc}} if it does not exist) above any {{ic|exec}} options:

Revision as of 21:40, 20 January 2014

VirtualBox is a hypervisor used to run operating systems in a special environment, called a virtual machine, on top of the existing operating system. VirtualBox is in constant development and new features are implemented continuously. It comes with a Qt GUI interface, as well as headless and SDL command-line tools for managing and running virtual machines.

In order to integrate functions of the host system to the guests, including shared folders and clipboard, video acceleration and a seamless window integration mode, guest additions are provided for some guest operating systems.

You can install the qt4 optional dependency in order to use the graphical interface which is based on Qt. This is not required if you intend to use VirtualBox in command-line only. See below to learn the differences.

VirtualBox kernel modules

Next, in order for VirtualBox to virtualize your guest installation, you will need to add kernel modules to your host kernel.

As you have to know, the binary compatibility of kernel modules depends on the API of the kernel against which they have been compiled. The problem with the Linux kernel is that these interfaces might not be the same from one kernel version to another. In order to avoid compatibility problems and subtle bugs, each time the Linux kernel is upgraded, it is advised to recompile the kernel modules against the Linux kernel version that has just been installed. This is what Arch Linux packagers actually do with the VirtualBox kernel modules packages: each time a new Arch Linux kernel is released, the Virtualbox modules are upraded accordingly.

Therefore, if you are using a kernel from the official repositories or a custom one (self-compiled or installed from the AUR), the kernel module package you will need to install will thus vary.

Hosts running a custom kernel

If you use or intend to use a self-compiled kernel from sources, you have to know that VirtualBox does not require any virtualization modules (e.g. virtuo, kvm,...). The VirtualBox kernel modules provide all the necessary for VirtualBox to work properly. You can thus disable in your kernel .config file these virtualization modules if you do not use other hypervisors like Xen, KVM or QEMU.

The virtualbox-host-modules package works fine with custom kernels of the same version of the Arch Linux stock kernel such as linux-ckAUR. However, if you are using a custom kernel which is not of the same version of the Arch Linux stock one, you will have to install the virtualbox-host-dkms package instead. The latter comes bundled with the source of the VirtualBox kernel modules that will be compiled to generate these modules for your kernel.

Since the virtualbox-host-modules comes with the official Arch Linux kernel (linux) as a dependency, if you want to remove this default kernel you do not use, you will have to install virtualbox-host-dkms as well. Then, you will be able to remove virtualbox-host-modules then linux (if no other packages require it).

As the virtualbox-host-dkms package requires compilation, make sure you have the kernel headers corresponding to your custom kernel version to prevent this error from happening Your kernel headers for kernel your custom kernel version cannot be found at /usr/lib/modules/your custom kernel version/build or /usr/lib/modules/your custom kernel version/source.

If you use a self-compiled kernel and have used make modules_install to install its modules, folders /usr/lib/modules/your custom kernel version/build and (...)/source will be symlinked to your kernel sources. These will act as the kernel headers you need. If you have not removed these kernel sources yet, you have nothing to do.

If you use a custom kernel from AUR, make sure the package linux-headers is installed.

Once virtualbox-host-dkms is installed, simply generate the kernel modules for your custom kernel by running the following command structure:

To automatically recompile the VirtualBox kernel modules when their sources get upgraded (i.e. when the virtualbox-host-dkms package gets upgraded) and avoid to type again the above dkms install command manually afterwards, enable the dkms service with:

# systemctl enable dkms

Note: If you do not have the dkms service enabled while the virtualbox-host-dkms package is being updated, the VirtualBox modules will not be updated and you will have to type in manually the dkms install command described above to compile the latest version of the Virtualbox kernel modules. If you do not want to type in manually this command, if the dkms service is automatically loaded at startup, you just need to reboot and your VirtualBox modules will be recompiled silently.

If you want to keep that dkms deamon disabled, you can use an initramfs hook that will automatically trigger the dkms install command described above at boot time. This requires to reboot to recompile the VirtualBox modules.
To enable this hook, install the vboxhost-hookAUR package from the AUR and add vboxhost to your HOOKS array in /etc/mkinitcpio.conf. Again, make sure the right linux headers are available for the new kernel otherwize the compilation will fail.

Tip: Like the dkms command, the vboxhost hook will tell you if anything goes wrong during the recompilation of the VirtualBox modules.

Load the VirtualBox kernel modules

Among the kernel modules VirtualBox uses, there is a mandatory module named vboxdrv, which must be loaded before any virtual machines can run. It can be automatically loaded when Arch Linux starts up, or it can be loaded manually when necessary.

To load the module manually:

# modprobe vboxdrv

Note: In order to avoid no such file or directory errors when using modprobe, you may need to update the kernel dependency modules database modprobe is using with depmod -a.

To load the VirtualBox module at boot time, refer to Kernel_modules#Loading and create a *.conf file (e.g. virtualbox.conf) in /etc/modules-load.d/ with the line:

/etc/modules-load.d/virtualbox.conf

vboxdrv

To ensure full functionality of bridged networking, ensure that the vboxnetadp, vboxnetflt and vboxpcikernel modules are loaded as well and that the net-tools package is installed.

Note: If the VirtualBox kernel modules were loaded in the kernel while you updated the modules, you need to reload them manually to use the new updated version.

Add usernames to the vboxusers group

To use the USB ports of your host machine in your virtual machines, add to the vboxusersgroup the usernames that will be authorized to use this feature. The new group does not automatically apply to existing sessions; the user has to log out and log in again, or start a new environment with the newgrp command or with sudo -u $USER -s. To add the current user to the vboxusers group, type:

# gpasswd -a $USER vboxusers

Guest additions disc

It is also recommended to install the virtualbox-guest-iso package on the host running VirtualBox. This package will act as a disc image that can be used to install the guest additions onto guest systems other than Arch Linux.

Use the right front-end

Now, you are ready to use VirtualBox. Congratulations!

Multiple front-ends are available to you which two are available by default:

If you want to use VirtualBox in command-line only (only launch and change settings of existing virtual machines), you can use the VBoxSDL command. VBoxSDL does only provide a simple window that contains only the pure virtual machine, without menus or other controls.

If you want to use VirtualBox in command-line without any GUI running (e.g. on a server) to create, launch and configure virtual machines, use the VBoxHeadless which produces no visible output on the host at all, but instead only delivers VRDP data.

If you installed the qt4 optional dependency, you also have a nice looking GUI interface with menus which is usable with the mouse.

Finally, you can use PhpVirtualBox to administrate your virtual machines via a web interface.

Installation steps for Arch Linux guests

Install the Guest Additions

On other GNU/Linux distribution, the Guest Additions can be installed in two different ways:

either via the regular installation process described in the Virtualbox manual (on the host, clicking "Install Guest Additions" from the Virtualbox menu, then on the guest, mounting the cdrom manually in /mnt, then execute /mnt/VboxLinuxAdditions.run);

On Arch Linux guests, the official process does not work, you will get Unable to determine your Linux distribution as an error message. You have thus to use the second way and install virtualbox-guest-utils which provides virtualbox-guest-modules as a required depencendy.

Load the Virtualbox kernel modules

To load the VirtualBox module at boot time, refer to Kernel_modules#Loading and create a *.conf file (e.g. virtualbox.conf) in /etc/modules-load.d/ with these lines:

/etc/modules-load.d/virtualbox.conf

vboxguest
vboxsf
vboxvideo

Launch the VirtualBox guest services

After the rather big installation step dealing with VirtualBox kernel modules, now you need to start the guest services. The guest services are actually just a binary executable called VBoxClient which will interact with your X Window System. VBoxClient manages the following features:

the shared clipboard and the drag and drop between the host and the guest;

the seamless window mode;

the fact that the guest display is automatically resized according to the size of the guest window;

and finally checking the VirtualBox host version.

All these features can be enabled indepently and manually with their dedicated flags.

But VirtualBox provides a currently undocumented feature, a Bash script VBoxClient-all which enables all these features automatically and checks if a X11 server is really running before enabling some of them.

$ VBoxClient-all

To start that script automatically when system starts run the following command as root (or sudo):
$ systemctl enable vboxservice

If you don't want to use systemd: (If you are unsure, use the method above):

if you do not have any desktop environment, add the following line to the top of ~/.xinitrc (copy the file from /etc/skel/.xinitrc if it does not exist) above any exec options:

~/.xinitrc

/usr/bin/VBoxClient-all

Now, you should have a working ArchLinux guest. Congratulations!

Export VirtualBox virtual machines to other hypervisors

If you plan to use your virtual machine, created with VirtualBox, on another computer which has not necessarily VirtualBox installed, you might be interested in following the next steps.

Remove additions

If you have installed the VirtualBox additions to your VirtualBox virtual machine, please uninstall them first. Your guest, especially if it is using an OS from the Windows family, might behave weirdly, crash or even might not boot at all if you are still using the specific VirtualBox drivers in another hypervisor.

Tip: If you intend to use a virtualization solution from Parallels Inc for your Mac, the product Parallels Transporter can be used to create a virtual machine from a Windows or GNU/Linux virtual machine (or even from a native installation). With such a product, you do not need to apply follow the next step and can stop reading here.

Use the right virtual disk format

Supported formats by VirtualBox

VirtualBox comes with its own container for the virtual hard drives: the Virtual Disk Image (VDI) file format. Even if this format is used by default when you create a virtual machine with VirtualBox, you can specify another one. Indeed VirtualBox does flawlessly support other formats:

VMDK: this format has been initially developed by VMware for their products, but it is now an open format. If you intend to use any VMware product, you will need to use this format since it is the only one supported by VMware.

VHD: this is the format used by Microsoft in Windows Virtual PC and Hyper-V. If you intend to use any of these Microsoft products, you will have to choose this format.

Tip: Since Windows 7, this format can be mounted directly without any additional application.

Version 2 of the HDD format used by Parallels (Desktop for Mac).

QED and QCOW used by QEMU.

The format you will need to choose depends on the hypervisor that will be used.

Specific virtual disk format differences

The VMDK does offer the ability to be split into several files of up to 2GB. This feature is specially useful if you want to store the virtual machine on machines which do not support very large files. Other formats do not provide such an equivalent feature.

Changing the logical capacity of an existing virtual drive with VirtualBox VBoxManage command is only supported for VDI and VHD formats used in dynamic allocation mode to expand (not shrink) their capacity.

Convert your virtual disk format

VirtualBox only supports the virtual disk convertion between VDI, VMDK and VHD formats. Here is an example of convertion from a VDI to VMDK vitual drive.

Create the VM configuration for your hypervisor

If your hypervisor (like VMware) does not support import of VirtualBox configuration files (.vbox), you will have to create a new virtual machine and specify its hardware configuration as close as possible as your initial VirtualBox virtual machine.

Note: Pay a close attention to the installation mode (BIOS or UEFI) used to install the guest operating system. While an option is available on VirtualBox to choose between these 2 modes, on VMware, you will have to add the following line to your .vmx file.

ArchLinux_vm.vmx

firmware = "efi"

Finally, ask your hypervisor to use the existing virtual disk you have converted and launch the virtual machine.

Tip: If you are using VMware products and do not want to run through the whole GUI to find the right location to add your new virtual drive device, you can replace the location of the current .vmdk file by editing your .vmx configuration file manually.

Advanced configuration

Using USB webcam / microphone

Note: You will need to have VirtualBox extension pack installed before following the steps below. See #Extension pack for details.

Make sure the virtual machine is not running and your webcam / microphone is not being used.

Bring up the main VirtualBox window and go to settings for Arch machine. Go to USB section.

Make sure "Enable USB Controller" is selected. Also make sure that "Enable USB 2.0 (EHCI) Controller" is selected too.

Click the "Add filter from device" button (the cable with the '+' icon).

Select your USB webcam/microphone device from the list.

Now click OK and start your VM.

Using Arch under Virtualbox EFI mode

My experience with this configuration was pretty terrible, but it does work.

UPD. Using efibootmgr has the same effect as using VirtualBox boot menu (see the note below): settings disappear after VM shutdown. First, efibootmgr does *not* work. It will appear to work, but all changes it makes appear to be overwritten on reboot. After performing a standard UEFI/GPT installation, reboot and you should get dumped to the EFI shell. Type exit and you will get a menu. Select the Boot Management Manager, Boot Options, Add Boot Option. Use the file browser to find the grub efi file and select it. Add a label if you want. Afterwards, select Change Boot Order from the menu, use arrow keys to select your Arch option, and + to move it up to the top. GRUB should boot by default now.

Here I'm using consistent mapping name (HD16a0a1). It is probably a good idea, because they do survive configuration changes.

Note: Another useful way to get back to the EFI menu after autobooting is working is to press the c key inside GRUB and type exit. Obviously, this will only work with grub-efi, not grub-bios.

Regenerating the grub.cfg file may also be required to fix broken UUIDs. Check with the lsblk -f command that they match.

Yet another useful way to get to VirtualBox boot menu is pressing F12 right after starting virtual machine. It comes in handy when using rEFInd + EFISTUB, for example.

Synchronize guest date with host

To keep the date and time synchronized, make sure you have virtualbox-guest-utils installed in your host (see above). To enable the service for subsequent boots, run

# systemctl enable vboxservice

To start immediately, run

# systemctl start vboxservice

You also need run this daemon in order to use the auto-mounting feature of shared folders that are mentioned above.

Enable shared folders

Shared folders are managed via the VirtualBox program on the host. They may be added, auto-mounted and made read-only from there.

If automounting is enabled, and the vboxservice is enabled, creating a shared folder from the VirtualBox program on the host will mount that folder in /media/sf_SHAREDFOLDERNAME on the guest. To have that folder created on the Arch Guest, after the Guest Additions have been installed, you need to add your username to the vboxsf group.

# groupadd vboxsf
# gpasswd -a $USER vboxsf

Note: For automounting to work, you have to enable the vboxservice service.

If you want a shared folder (e.g /media/sf_Dropbox) to be symlinked to another folder in your home directory for easy access, you can type on the guest:

$ ln -s /media/sf_Dropbox/* ~/dropbox

The VBoxLinuxAdditions.run script provided in the Guest Additions iso does this for you, however, Arch does not recommend using it.

To prevent startup problems when you're using systemd, you should add comment=systemd.automount to your /etc/fstab. This way, they are mounted only when you access those mount points and not during startup. Otherwise your system might become unusable after a kernel upgrade (if you install your guest additions manually).

Replace the virtual disk manually from the .vbox file

If you think that editing a simple XML file is more convenient than playing with the GUI or with VBoxManage and you want to replace (or add) a virtual disk to your virtual machine, simply replace in the .vbox configuration file corresponding to your virtual machine the GUID, the file location and the format to your needs:

Note: If you do not know the GUID of the drive you want to add, but you have just used VBoxManage for the convertion, this command will output the GUID just after the convertion. Using a random GUID does not work, as each UUID is stored inside each disk images.

Starting virtual machines with a service

Find hereafter the implementation details of a systemd service that will be used to consider a virtual machine as a service.

Note: Replace <user> with a user that is a member of the vboxusers group. Make sure the user chosen is the same user that will create/import virtual machines, otherwise the user will not see the VM appliances.

To enable the service that will launch the virtual machine at next boot, use:

# systemctl enable vboxvmservice@your virtual machine name

To start the service that will launch directly the virtual machine, use:

# systemctl start vboxvmservice@your virtual machine name

VirtualBox 4.2 introduces a new way for UNIX-like systems to have virtual machines started automatically, other than using a systemd service.

Extension pack

VirtualBox requires an extension pack in order to provide support for RDP, as well as USB 2.0 and PXE booting for Intel network cards, etc., available at this webpage: VirtualBox Downloads. This PUEL licensed extension pack is free for personal use.

To install the Extension pack you download and save it to your hard drive and then open the VirtualBox main program. Click on preferences and on the left side click Extensions. On the right side, click the add package icon and then open the folder that has the extension and click to install it.

Additionally you can install the Extension Pack from the command line using VBoxManage.

Where 8888 is the port the host should listen on and 80 is the port the VM will send Apache's signal on.

To use a port lower than 1024 on the host machine, changes need to be made to the firewall on that host machine. This can also be set up to work with SSH or any other services by changing "Apache" to the corresponding service and ports.

Note: pcnet refers to the network card of the VM. If you use an Intel card in your VM settings, change pcnet to e1000.

Sharing keyboard and mouse

To capture the keyboard and mouse, click the mouse inside the virtual machine display.

To uncapture, press right Ctrl.

To get seamless mouse integration between host and guest, install the #Guest Additions inside the guest.

Sharing files

In the settings of the virtual machine go to shared folders tab and add the folders you want to share.

NOTE: You need to install Guest Additions in order to use this feature.

In a Linux host, create one or more folders for sharing files, then set the shared folders via the virtualbox menu (guest window).

In a Windows guest, starting with VirtualBox 1.5.0, shared folders are browseable and are therefore visible in Windows Explorer. Open Windows Explorer and look for it under My Networking Places → Entire Network → VirtualBox Shared Folders.

Launch the Windows Explorer (run explorer command) to browse the network places -> expand with the (+) sign : entire network → VirtualBox shared folders → \\Vboxsvr → then you can now expand all your configured shared folders here, and set up shortcuts for Linux folders in the guest filesystem. You can alternatively use the "Add network place wizard", and browse to "VBoxsvr".

Alternatively, on the Windows command line, you can also use the following:

net use x: \\VBOXSVR\sharename

While VBOXSVR is a fixed name, replace x: with the drive letter that you want to use for the share, and sharename with the share name specified with VBoxManage.

# mount -t vboxsf [-o OPTIONS] sharename mountpoint
(Notes: sharename is optional or same as selected in the VirtualBox-Dialog , mountpoint of the shared directory in the hosts filesystem)

Automatically mounting a shared folder is possible through the linux-guest /etc/fstab file. You may also specify the uid=#,gid=# (where # is replaced by the actual numerical uid and gid) to mount the share with normal user permissions instead of root permissions. (this can be helpful to mount parts of your host ~/home for use in your Linux-guest. To do this add an entry in the following format to the linux-guest /etc/fstab:

sharename mountpoint vboxsf uid=#,gid=# 0 0

Replace sharename with the share name specified with VBoxManage, and mountpoint with the path where you want the share to be mounted (e.g. /mnt/share). The usual mount rules apply, that is, create this directory first if it does not exist yet. Note that if you have told VirtualBox to "automatically mount" the shared folder, this step may not be necessary and your folder will be found somewhere under /media.

Beyond the standard options supplied by the mount command, the following are available:

iocharset=CHARSET

to set the character set used for I/O operations (utf8 by default) and

convertcp=CHARSET

to specify the character set used for the shared folder name (utf8 by default).

D3D acceleration in Windows guests

Recent versions of Virtualbox have support for accelerating OpenGL inside guests. This can be enabled with a simple checkbox in the machine's settings, right below where video ram is set, and installing the Virtualbox guest additions. However, most Windows games use Direct3D (part of DirectX), not OpenGL, and are thus not helped by this method. However, it is possible to gain accelerated Direct3D in your Windows guests by borrowing the d3d libraries from Wine, which translate d3d calls into OpenGL, which is then accelerated.

After enabling OpenGL acceleration as described above, go to http://www.nongnu.org/wined3d/ in your Windows guest and grab the "Latest version (Installer):". Reboot the guest into safe mode (press F8 before the Windows screen appears but after the Virtualbox screen disappears), and install wined3d, accepting the defaults during the install. (You may check the box for DirectX 10 support if you like, don't touch anything else.) Reboot back to normal mode and you should have accelerated Direct3D.

Note: This hack may or may not work for some games depending on what hardware checks they make and what parts of D3D they use.

Note: This has only been tried on Windows XP and Windows 7 RC guests AFAIK, and does not work on the Windows 7 guest. If you have experience with this on a different windows version, please add that data here.

Virtual hard disks

Cloning a Disk Image and Reassigning a UUID

Assigns a new UUID to the given image file. This way, multiple copies of a container can be registered.

$ VBoxManage internalcommands sethduuid /path/to/disk.vdi

Compacting Linux disks

When the fillfile hits the limit of the virtual hdd, the vast majority of user-space (non-reserved blocks) will be filled. Alternatively, run the command as root to get all of them. Example message: "8192 blocks (8192Mb) written.dcfldd:: No space left on device."

Once this occurs, simply remove the fill file and powerdown the VM:

$ rm -f fillfile && sudo shutdown -hF now

Note: The -F switch will force a disk check upon a reboot which is advised following the compact operation.

Boot the VM, run Partition Wizard 5 to resize the partition on the fly, and reboot.

Remove old vdi from VirtualBox and delete

# VBoxManage closemedium disk old.vdi
# rm old.vdi

Disk image format conversion

The qemu-img program can be used to convert images from one format to another or to add compression or encryption to an image. qemu-img is provided by the qemu package.

QEMU to VDI

From QEMU 0.12.x on, qemu-img is able to convert directly to VDI and back, if necessary:

$ qemu-img convert -O vdi test.qcow2 test.vdi

VMware to VDI

You can

$ VBoxManage clonehd source.vmdk target.vdi --format VDI

although recent versions of VirtualBox are able to use (and also create) .vmdk images directly.

Starting virtual machines with a key binding

It can be useful to start the virtual machines directly rather than start the Virtual Box console. To do this, simply assign a keybinding in .xbindkeysrc to

"VBoxManage startvm vm-name"
keycodekeyname

If you have a space in the vm name, then enclose the vm-name in single apostrophes. For eg.

"VBoxManage startvm 'Windows 7'"
m:0x0 + c:163
XF86Mail

Detecting web-cams and other USB devices

Make sure you filter any devices that are not a keyboard or a mouse so they do not start up at boot and this insures that Windows will detect the device at start-up.

Sending CTRL+ALT+F1

If your guest operating system is a GNU/Linux distribution and you want to open a new TTY shell or exit X via typing Ctrl+Alt+F1, you can easily send this command to the guest simply by hitting your Host Key (usually the right Ctrl key + F1 or F2, according to what you need to do.

VirtualBox on a USB key

When using VirtualBox on a USB key, for example to start an installed machine with an ISO image, you will manually have to create VDMKs from the existing drives. However, once the new VMDKs are saved and you move on to another machine, you may experience problems launching an appropriate machine again. To get rid of this issue, you can use the following script to launch VirtualBox. This script will clean up and unregister old VMDK files and it will create new, proper VMDKs for you:

After logging out, connect a Nokia phone with PC Suite mode and start Windows XP to test the new rule.

Fix ISO images problems

While VirtualBox can mount ISO images without problem, there are some image formats which cannot reliably be converted to ISO. For instance, ccd2iso ignores .ccd and .sub files, which can give disk images with broken files.

In this case, you will either have to use CDEmu for Linux inside VirtualBox or any other utility used to mount disk images.

GUI does not match GTK Theme

OpenBSD

Some people with older computers can have trouble running an OpenBSD VM, manifesting as bunch of segmentation faults and total unusability. Starting VirtualBox with the -norawr0 argument may solve the problem. You can do it like this:

$ VBoxSDL -norawr0 -vm NameOfYourOpenBSDVM

VBOX_E_INVALID_OBJECT_STATE (0x80BB0007)

This can occur if a VM is exited ungracefully. The solution to unlock the VM is trivial:

$ VBoxManage controlvm <your virtual machine name> poweroff

USB subsystem is not working on the host or guest

Sometimes, on old Linux hosts, the USB subsystem is not auto-detected resulting in an error Could not load the Host USB Proxy service: VERR_NOT_FOUND or in a not visible USB drive on the host, even when the user is in the vboxusers group. This problem is due to the fact that VirtualBox switched from usbfs to sysfs in version 3.0.8. If the host doesn't understand this change, you can revert to the old behaviour by defining the following environment variable in any file that is sourced by your shell (e.g. your ~/.bashrc if you're using bash):

~/.bashrc

VBOX_USB=usbfs

Then make sure, the environment has been made aware of this change (reconnect, source the file manually, launch a new shell instance or reboot).

Also make sure that your user is a member of the storage group.

Failed to create the host-only network interface

To be able to create a Host-Only Network Adapter or a Bridged Network Adapter, the kernel modules vboxnetadp and vboxnetflt need to be loaded, you also need to make sure the net-tools package is installed. You can load these kernel modules manually with:

# modprobe -a vboxdrv vboxnetadp vboxnetflt

To load these modules automatically at boot, refer to Kernel_modules#Loading and use a program name of virtualbox.

WinXP: Bit-depth cannot be greater than 16

If you are running at 16-bit color depth, then the icons may appear fuzzy/choppy. However, upon attempting to change the color depth to a higher level, the system may restrict you to a lower resolution or simply not enable you to change the depth at all. To fix this, run regedit in Windows and add the following key to the Windows XP VM's registry: